排序方式: 共有74条查询结果,搜索用时 86 毫秒
61.
Bonaduce Antonio Staneva Joanna Grayek Sebastian Bidlot Jean-Raymond Breivik Øyvind 《Ocean Dynamics》2020,70(12):1547-1569
Ocean Dynamics - The contribution of sea-state-induced processes to sea-level variability is investigated through ocean-wave coupled simulations. These experiments are performed with a... 相似文献
62.
63.
64.
Brit Thyberg Jens JahrenTurid Winje Knut BjørlykkeJan Inge Faleide Øyvind Marcussen 《Marine and Petroleum Geology》2010
Late Cretaceous mudstones from two wells located in the northern North Sea and the Norwegian Sea have been examined with respect to quartz cement. Two different types of quartz cement (Type 1 and Type 2) have been identified using SEM/EDS/CL-analysis of drill-bit cuttings at depths 2370–2670 m (80–85 °C). Type 1 appears as relatively large aggregates (30–100 μm) of depth/temperature related crypto- or microcrystalline to macrocrystalline irregular quartz cement formed by local re-crystallization of biogenic silica. The CL-responses of Type 1 quartz cement give a clear indication of an authigenic origin. Type 2 quartz cement represents relatively high amounts of extremely fine-grained micro-sized (1–3 μm) crystals embedded as discrete, short chains or small clusters/nests within the illitized clay matrix. The CL-responses of micro-quartz crystals indicate an authigenic origin. The micro-quartz is most probably sourced from silica released during the smectite to illite dissolution–precipitation reaction. The petrographic evidence indicates that most of the silica released by the smectite to illite reaction has not been exported out of the mudstones. The silica released produce a subtle inter-connected micro-quartz network interlocked with aggregates of micro-quartz and authigenic clay crystals. This micro-quartz cementation process causes a significant and sharp change in the mudstone stiffness at the onset of the chemical compaction regime. This is indicated by an abrupt increase in well log velocity (Vp) and change in seismic facies close to 2500 m (80/85 °C). 相似文献
65.
Clay mineral diagenesis and quartz cementation in mudstones: The effects of smectite to illite reaction on rock properties 总被引:1,自引:0,他引:1
The Late Cretaceous to Early Tertiary sequence of the Vøring and Møre Basins from the Norwegian Sea has been examined with respect to mineralogy based on 319 cutting samples from five wells. A clear relationship between mineralogy and well log data is demonstrated. A significant change with respect to velocity, porosity and density occurs within the depth interval corresponding to 80–90 °C. At shallow depths/temperatures (<2.0 km/70 °C), compaction is mainly mechanical and the physical properties are similar to what has been measured by experimental compaction of mudstones. At greater depths, however, the log derived velocities and densities are higher than those produced by experimental compaction indicating significant chemical compaction. XRD analyses show a progressive alteration of smectite to illite (S–I) within this depth/temperature interval which results in the release of significant amounts of silica into solution. Detrital silt and fine-grained quartz showed no secondary quartz overgrowths. These grains are isolated within a clay matrix and surrounded by clay minerals, thus limiting the available surface area and pore space for quartz overgrowths. Chemical analyses (XRF) indicate that silica is conserved within this depth interval, and the amount released from S–I alteration was locally precipitated. Field emission gun-scanning electron microscopy (FEG-SEM) and cathode luminescence (CL) identified authigenic micro-crystalline quartz cement within the clay matrix at temperatures above ∼85 °C. This is accompanied by an increase in velocity and density indicating that the S–I reaction and the precipitation of authigenic quartz caused a significant change in the rock stiffness. 相似文献
66.
Øyvind Marcussen Tom Erik MaastNazmul H. Mondol Jens JahrenKnut Bjørlykke 《Marine and Petroleum Geology》2010
Rock physical properties, like velocity and bulk density, change as a response to compaction processes in sedimentary basins. In this study it is shown that the velocity and density in a well defined lithology, the shallow marine Etive Formation from the northern North Sea increase with depth as a function of mechanical compaction and quartz cementation. Physical properties from well logs combined with experimental compaction and petrographic analysis of core samples shows that mechanical compaction is the dominant process at shallow depth while quartz cementation dominates as temperatures are increased during burial. At shallow depths (<2000–2500 m, 70–80 °C) the log derived velocities and densities show good agreement with results from experimental compaction of loose Etive sand indicating that effective stress control compaction at these depths/temperatures. This indicates that results from experimental compaction can be used to predict reservoir properties at burial depths corresponding to mechanical compaction. A break in the velocity/depth gradient from about 2000 m correlates with the onset of incipient quartz cementation observed from petrographic data. The gradient change is caused by a rapid grain framework stiffening due to only small amounts of quartz cement at grain contacts. At temperatures higher than 70–80 °C (2000–2500 m) the velocities show a strong correlation with quartz cement amounts. Porosity reduction continues after the onset of quartz cementation showing that sandstone diagenesis is insensitive to effective stress at temperatures higher than 70–80 °C. The quartz cement is mainly sourced from dissolution at stylolites reflected by the fact that no general decrease in intergranular volume (IGV) is observed with increasing burial depth. The IGV at the end of mechanical compaction will be important for the subsequent diagenetic development. This study demonstrates that mechanical compaction and quartz cementation is fundamentally different and this needs to be taken into consideration when analyzing a potential reservoir sandstone such as the Etive Formation. 相似文献
67.
Internal pressure gradient estimation is problematic in σ-coordinate ocean models and models based on more generalised topography following coordinate systems. Artificial pressure
gradients in these models may create artificial flow. In recent literature, several methods for reducing the errors in the
estimated internal pressure gradients are suggested. A basin with a bell-shaped seamount in the middle has often been applied
as a test case. To supplement the findings from these more idealised experiments, the internal pressure gradient errors in
a σ-coordinate ocean model for the Nordic Seas are discussed in the present paper. Three methods for estimating internal pressure
gradients are applied in these experiments. The sensitivity of the results to the subtraction of background stratification
and to the horizontal viscosity are also investigated. For the extended Nordic Seas case, basin scale modes dominate after
a few days of simulation. The errors in the transports across some sections may be larger than 1 Sv (1 Sv = 106 m3 s − 1) in these studies with 16-km grid resolution. The order of magnitude of the errors in the transports of Atlantic water into
the Nordic Seas is approximately 0.5 Sv or between 5 and 10 % of recent transport estimates based on measurements. The results
do not indicate that the errors are generally reduced if the background stratification is subtracted when estimating internal
pressure gradients in terrain following models. However, the results from the experiments initialised with the background
stratification show that the erroneous flows may be reduced considerably by using more recent techniques for estimating internal
pressure gradients, especially for higher values of horizontal viscosity. 相似文献
68.
Øyvind Byrkjedal Nils Gunnar Kvamstø Marius Meland Eystein Jansen 《Climate Dynamics》2006,26(5):473-487
Published reconstructions of last glacial maximum (LGM) sea surface temperatures and sea ice extent differ significantly.
We here test the sensitivity of simulated North Atlantic climates to two different reconstructions by using these reconstructions
as boundary conditions for model experiments. An atmospheric general circulation model has been used to perform two simulations
of the (LGM) and a modern-day control simulation. Standard (CLIMAP) reconstructions of sea ice and sea surface temperatures
have been used for the first simulation, and a set of new reconstructions in the Nordic Seas/Northern Atlantic have been used
for the second experiment. The new reconstruction is based on 158 core samples, and represents ice-free conditions during
summer in the Nordic Seas, with accordingly warmer sea surface temperatures and less extensive sea ice during winter as well.
The simulated glacial climate is globally 5.7 K colder than modern day, with the largest changes at mid and high latitudes.
Due to more intense Hadley circulation, the precipitation at lower latitudes has increased in the simulations of the LGM.
Relative to the simulation with the standard CLIMAP reconstructions, reduction of the sea ice in the North Atlantic gives
positive local responses in temperature, precipitation and reduction of the sea level pressure. Only very weak signatures
of the wintertime Icelandic Low occur when the standard CLIMAP sea surface temperature reconstruction is used as the lower
boundary condition in LGM. With reduced sea ice conditions in the Nordic Seas, the Icelandic Low becomes more intense and
closer to its present structure. This indicates that thermal forcing is an important factor in determining the strength and
position of the Icelandic Low. The Arctic Oscillation is the most dominant large scale variability feature on the Northern
Hemisphere in modern day winter climate. In the simulation of the LGM with extensive sea ice this pattern is significantly
changed and represents no systematic large scale variability over the North Atlantic. Reduction of the North Atlantic sea
ice extent leads to stronger variability in monthly mean sea level pressure in winter. The synoptic variability appears at
a lower level in the simulation when standard reconstructions of the sea surface in the LGM are used. A closer inspection
of storm tracks in this model experiment shows that that the synoptic lows follow a narrow band along the ice edge during
winter. The trajectories of synoptic lows are not constrained to the sea ice edge to the same degree when the sea ice extent
is reduced. Seasonally open waters in the Nordic Seas in the new reconstruction apparently act as a moisture source, consistent
with the current understanding of the rapid growth of the Fennoscandian and Barents Ice Sheets, during the LGM. The signal
from the intensified thermal forcing in the North Atlantic in Boreal winter is carried zonally by upper tropospheric waves,
and thus generates non-local responses to the changed sea ice cover. 相似文献
69.
Ф.А.阿列克謝也夫 《地球物理学报》1960,9(1):47-64
一、引言近十年来,石油地貭研究工作者及油气勘探工作者都在认真地考虑提高地貭勘探工作效果的途径,苏联地貭家们曾进行大量的工作并提出了许多重要建议,这些建议巳成功地采纳到综合勘探工作中去,包括苏联钻基准井、剖面井、估价井和区域性综合地球物理勘探.在新区进行这些工作,就有可能在勘探初期阶段正确地评价勘探地区的地貭构造特征,发现构造及地层岩相特征的变化规律.根据这些资料能初步地评价新区的含油气远景并可避免在进一步钻探及其他勘探工作中犯很多错误. 相似文献
70.
Oliver Wetter Christian Pfister Johannes P. Werner Eduardo Zorita Sebastian Wagner Sonia I. Seneviratne Jürgen Herget Uwe Grünewald Jürg Luterbacher Maria-Joao Alcoforado Mariano Barriendos Ursula Bieber Rudolf Brázdil Karl H. Burmeister Chantal Camenisch Antonio Contino Petr Dobrovolný Rüdiger Glaser Iso Himmelsbach Andrea Kiss Oldřich Kotyza Thomas Labbé Danuta Limanówka Laurent Litzenburger Øyvind Nordl Kathleen Pribyl Dag Retsö Dirk Riemann Christian Rohr Werner Siegfried Johan Söderberg Jean-Laurent Spring 《Climatic change》2014,125(3-4):349-363
The heat waves of 2003 in Western Europe and 2010 in Russia, commonly labelled as rare climatic anomalies outside of previous experience, are often taken as harbingers of more frequent extremes in the global warming-influenced future. However, a recent reconstruction of spring–summer temperatures for WE resulted in the likelihood of significantly higher temperatures in 1540. In order to check the plausibility of this result we investigated the severity of the 1540 drought by putting forward the argument of the known soil desiccation-temperature feedback. Based on more than 300 first-hand documentary weather report sources originating from an area of 2 to 3 million km2, we show that Europe was affected by an unprecedented 11-month-long Megadrought. The estimated number of precipitation days and precipitation amount for Central and Western Europe in 1540 is significantly lower than the 100-year minima of the instrumental measurement period for spring, summer and autumn. This result is supported by independent documentary evidence about extremely low river flows and Europe-wide wild-, forest- and settlement fires. We found that an event of this severity cannot be simulated by state-of-the-art climate models. 相似文献